A strange form of black hole has been detected for the first time at the heart of the Milky Way.

It's a "mini-me" version of its neighbouring supermassive "cousin" - shedding light on how it formed.

Looming in the middle of every galaxy, supermassive black holes weigh as much as ten billion suns - fuelling the birth of stars and deforming the fabric of space-time itself, according to Telegraph UK.

But the mass of the newly identified black hole is only about 100,000 times that of our sun - placing it in the "intermediate sized" class.


These were believed to exist but none had ever actually been identified - until now.

Lying about 25,000 light years from Earth it could help answer one of the really big questions - how did the Milky Way evolve?

It was found hiding in a cloud of molecular gas by Japanese astronomers using the Alma (Atacama Large Millimeter/submillimeter Array) 16,400 feet above sea level in the Andes in northern Chile.

The radio telescope's high sensitivity and resolution enabled them to observe the cloud 195 light years from the Milky Way's centre spot.

It sheds fresh light on the most mysterious objects in the universe. Uncovering their secrets is the 'Holy Grail' of astronomy.

Recent research has shown supermassive black holes are essential to the creation of galaxies, stars - and even life itself.

Each one is about half a per cent of the host galaxy's size - which indicates they are the driving force behind their evolution.

The finding published in Nature Astronomy provides important insights into how supermassive black holes like the one at the very centre of our galaxy were created.

Although it is well established they reside in seemingly all galaxies we do not know how they get so enormous.

This is despite them appearing to have been in place when the universe was comparatively young - only a few hundred million years old.

Artist impression of a deep space black hole. Photo / 123RF
Artist impression of a deep space black hole. Photo / 123RF

Now the mystery could be solved by the identification of the intermediate-type black hole - something astrophysicists suspected were around but for which there have been only tentative candidates in the past.

It's believed they could be the seeds of their more massive counterparts - merging together to form a gigantic one. intermediate black holes might simply turn out to be their progenitors.

It's difficult to find black holes - because they are completely black. But in some cases they cause effects which can be seen.

A black hole is a region of space that has such an extremely powerful gravitational field that it absorbs all the light that passes near it and reflects none.

Professor Tomoharu Oka and colleagues used computer simulations to show the high velocity motion, or kinematics, of the gas could only be explained by an intermediate black ole conceal ed in its midst.

They also found the emission from this cloud closely resembles a scaled-down version of the Milky Way's quiescent supermassive black hole.

Astrophysicists have suspected an intermediate class of black hole might exist - with masses between a hundred and several hundred thousand times that of the Sun.

But such black holes had not previously been reliably detected and their existence has been fiercely debated among the astronomical community.

Prof Oka, of Keio University in Japan said it is widely accepted black holes with masses greater than a million solar masses lurk at the centres of massive galaxies, but their origins remain unknown.

He said: "One possible scenario is intermediate-mass black holes (IMBHs) - which are formed by the runaway coalescence of stars in young compact star clusters - merge at the centre of a galaxy to form a supermassive black hole.

Astronaut view of the Milky Way from the International Space Station. Photo / Nasa
Astronaut view of the Milky Way from the International Space Station. Photo / Nasa

"Although many candidates for IMBHs have been proposed none is accepted as definitive. Recently we discovered a peculiar molecular cloud near the centre of our Milky Way galaxy.

"Based on the careful analysis of gas kinematics we concluded a compact object with a mass of about 100,000 solar masses is lurking in this cloud."

Prof Oka said it suggests "this massive object is an inactive IMBH which is not currently accreting matter."

Theoretical studies have predicted 100 million to one billion lack holes should exist in the Milky Way - but only 60 or so have been identified through observations so far.

Despite their popularity both in real science and science fiction the concept of a black hole has only been around for a hundred years - as predicted by Albert Einstein. The term itself did not come into use until 1967, and it was just 46 years ago that the first one was identified.

Prof Oka said: "Further detection of such compact high-velocity features in various environments may increase the number of non-luminous black hole candid ate and thereby increase targets to search for evidential proof of general relativity.

"This would make a considerable contribution to the progress of modern physics."